TH33448B - Optical recording medium and optical disk-type devices. - Google Patents

Abstract

DC60 (23/01/55) Medium for optical recording. According to this invention includes the basic parts. which has a data signal part that is generated on the surface on the where the laser light hits and the light transmittance layer is formed on the base layer. The thickness t of the light transmittance layer is within in a range equal to t = 3 to 177 microns at least In the area of the data signal part, if the unevenness of the optical transmission layer is delta N. A. of the system is also active. Lighting for reproductions or recordings and the replica and the lambda wavelength satisfy the condition of deltat less than or equal to Positive number or negative number 5.26 (lambda/N. A.4) (μm). Track pitch is P and subsequent deflection is I. P is less than or equal to 0.64 microns and I is less than or equal to. Positive or negative number 84.115 degrees (lambda/N. A.3/t) will be true. The medium for optical recordings will be recorded or replicated. by recording and copying system that meet the conditions lambda less than or equal to 0.68 microns and N..A. /lambda greater than or equal to 1.20 The optical recording medium allows a recording capacity of 8 GB. According to this invention will have a basic part. which has a data signal part that is generated on the surface on the where the laser light hits and the light transmittance layer is formed on the base layer. The thickness t of the light transmittance layer is within in a range equal to t = 3 to 177 Um at least In the area of the data signal part, if the unevenness of the light transmittance layer is Triangle t N.A. of the system works with Light for reproduction or recording and reproduction and wavelength (chemical symbol) satisfies the condition of triangle t less than or equal to +- 5.26 (chemical symbol/N.A.4) (UM) track pitch is P and deflection is Subsequently, P is less than or equal to 0.64 Um and (chemical symbol) less than or equal to +-84.115° (chemical symbol)/NA3/t) will be true. The optical recording medium is recorded. or has been replicated by recording and copying system that meets the conditions (chemical symbol) less than or equal to 0.68 Um and N.A./(chemical symbol) greater than or equal to 1.20. The optical recording medium allows a recording capacity of 8 GB.

Claims (6)

1. An optical recording medium consisting of a base layer with a portion of the information signal being generated on the surface, on the side where the laser beam hits, and the light transmission layer. The thickness t of the light-transmitting layer is within the range t = 3 to 177 Um, at least in the area of the signal area. And if the transmissivity of the transmitted layer is shown as a triangle t, N.A. of the optical system for the replication or recording and reproduction and the wavelength. (Chemical symbol) will satisfy the condition The t triangle is less than or equal to + -5.26 (chemical symbol /N.a.4) (Um) (where N.A. is the numerical aperture). 2. Optical recording medium. According to claim 1, if the track pitch is P and the deflection is (Chemical symbol) So then P is less than or equal to Um and (chemical symbol) less than or equal to + - 84.115 ํ (symbol /N.A.3/t) is true. 3. Optical recording medium. According to claim 1, which the mediator for Recording using such light Will be recorded or reproduced By the recording and replication system according to the conditions (Chemical symbol) less than or equal to 0.68 Um and N.A ./ (chemical symbol) greater than or equal to 1.20 4. Optical recording medium. According to claim 1 which diameter Its outermost is 127 mm. And its thickness at most is 1.60 mm. 5. Optical recording medium. According to claim 1, whose density is The lines will be set. So that the recording capacity is at least 8 GB. 6. Optical recording medium. According to claim 1, which, if the characteristics are Therefore, the depth of the trench or data pit is within the range from (chemical symbol / 8) / N to (3 (chemical symbol / 8) / N 7. The recording medium. Take light According to claim 1, the roughness of the surface RA of the surface is beamed for recording. And reproduction during The point size is set to a maximum of + - 3 (chemical symbol / 100). 8. Medium for optical recording. According to claim 1, which also includes More too The substrate is made of thermoplastic resin with a thickness of 0.3 to 1.2 mm and a pilot groove created on the substrate. By transfer Which film has Several layers will be built on the pilot groove. Or organic pigment will be created on it. By spinning coating, and at least one ultraviolet cured resin The type will be coated on it. To have a thickness of 3 to 177 Um. 9. Optical recording medium. According to claim 1, which also includes More too The substrate is made of thermoplastic resin with a thickness of 0.3 to 1.2 mm, and a pilot groove is created on the substrate by transfer, which the film With many layers Was built on the pilot groove. Or organic pigment will be created on it. By spinning coating, a light-transmitting film that acts as a light-transmitting layer is bonded onto it via a cured resin. At least one type of ultraviolet radiation that is coated on it. And overall thickness is within the range from 3 to 177 Um 1 0. Optical recording medium. According to claim 1, which the class transmits light as Said to be created By heating the thin plates that are produced By injection casting or Casting casting To a high temperature by the stamper by which part will transfer the signal or pilot groove to the said thin sheet. 1. Optical recording medium. According to claim 10, a base-strut with a thickness equal to 0.6 to 1.2 mm is attached to such a transfer slab. 1 2. Optical recording medium. According to claim 11, the base of the substrate is a transparent sheet. 1. 3. Optical recording medium. According to claim 11, the base substrate is adhered to. Through resin cured by ultraviolet radiation 1 4. Optical recording medium According to claim 9, the resin cured With such ultraviolet radiation Will be coated by a spin coating. 1. 5. Media for recording the optical. According to claim 1, which has a valid structure Two sides were made It can be cast simultaneously on both sides or stick on both sides. 1 6. Optical recording medium. According to claim 1, which has a multi-layered structure, the recording film or the reflective film And the light transmission layer will be stacked together. 1 7. Optical recording medium. According to claim 16, which the ability In the reflection of a number of such reflective film Will decrease in direction That approaches the incident light 1 8. Medium for recording the light. According to claim 1, the resin cured Ultraviolet radiation is also coated on the opposite side of the light transmission layer. According to claim 18, the resin cured With ultraviolet rays coated on the opposite side of The light transmission layer has a high shrink ratio. After erection When compared to the material that is made up of Light transmission class 2 0. Optical recording medium According to claim 1, which the hard coating layer for Improve anti-electrostatic properties And the surface hardness will be created Up on the surface of the aforementioned light-transmitting layer 2 1.Optical recording medium According to claim 8 or claim 9, the surface of the record layer to be coated with a hardened resin. With ultraviolet rays The modulation is then passed through a silane process for improvement. Adhesion to the resin that Cure with such ultraviolet radiation 2 2.Optical recording medium According to claim 1, an anti-reflective film is created on the surface of the said light-transmitting layer 2. 3.Optical recording medium According to claim 22, the condition of refraction N of the reflective protective film Is less than the refractive state Of such light-transmitting layer And the thickness of such anti-reflective film will be set to the maximum (Chemical symbol / 3) / N (nm) if the wavelength of light used for recording and reproduction is (Chemical symbol) 2 4.Disk type device Working with light For recording optical discs with a light-transmission layer whose thickness t is set in the form t = 3 to 177 Um, which includes Laser light source for laser light Which has a wavelength of 680 nm or shorter, and a lens with N.A. of at least 0.7 for converting laser light into the surface The front of the optical disc is recorded, where, if the unevenness of the optical layer thickness The above optical discs are located in the triangle t, N.A. of the display system for recording or recording and reproducing. The optical disc And transverse length (Chemical symbol) will satisfy the condition The t triangle is less than or equal to + -5.26 (Chemical signs) /N.A.4) (Um) (where N.A. is the numerical opening) 2 5.Disk type device Working with light According to claim 24, the lens has a two-group structure. 6.Disk type device Working with light According to claim 24, the lens has an N.A. of at least 0.78.